DE3836310A1 - METHOD AND ARRANGEMENT FOR CONTROLLING SWITCHING PROCESSES ON A PRINTING MACHINE - Google Patents

Abstract

In a process for the control of switching operations on a printing press in which an angle sensor is provided on a shaft, the respective angular position is compared with stored angular positions; in case of agreement, a switching operation assigned to the respective angular position is triggered. In particular, a rotary disc 12 on the main press drive has marks which can be sensed opto-electronically to provide pulses representing angular-speed signals A, B from which the actual angular position of the press can be evaluated. Memory 39 stores data concerning the angular positions of the press which trigger control signals for various operating switches 6-11; interfaces 47, 48 from format-measuring devices and from a keyboard determine which data is relevant, eg for recto-and-verso using a turning drum; this data is fed via register 36 to comparator 35 so that specific angular positions reached by the press cause the desired control signals to be triggered at the correct moment. <IMAGE>

Description

The invention is based on a method of the type of the main claim.

In printing machines, especially in Multi-color rotary offset printing machines, is the one and Switching off various functions depending on the respective position of the printing press or from each path of the printed sheet required. So may for example the blanket cylinder and the impression cylinder can only be moved together if the printed sheet is in the Printing unit is located. In known printing presses Control of such switching operations on the relevant Cylinders or shafts are provided, which at emit a switching signal at a predetermined angular position. Signals are also emitted by optical sensors when the printed sheet is in predetermined positions. However, these measures involve considerable effort and cannot easily be passed on to different Printing machines can be adapted. For example, they require a different realization in the process Printing machine units of different lengths (printing unit,  Coating unit, dryer, etc.) as well as for beauty and Back printing units. In addition, the print number is by scanning the bow is limited with optical sensors.

The object of the present invention is to provide a method for Control of switching operations on a printing press indicate which is due to low technical effort excels and different printers and Operating conditions can be adjusted in a simple manner.

The inventive method with the characteristic Features of the main claim has the advantage that except an incremental encoder depending on the design of the printing press specifically no further or only a few further sensors required are. Another advantage is that one controlled by the method according to the invention Printing machine in a simple way to different Modes of operation, for example on face or fine and Backprint, and adapted to different sheet lengths can be.

By the measures listed in the subclaims advantageous developments and improvements in Main claim specified method and advantageous Instructions for its implementation possible.

In particular, in further developments of the invention Switching operations at face and back printing in advantageous Adapted to the respective length of the printed sheet.

Another development of the invention enables a significant simplification when converting the printing press from straight printing to face and back printing.

Embodiments of the invention are in the drawing represented with several figures and in the following Description explained in more detail. It shows:

Fig. 1 is a schematic representation of an arrangement for implementing the method according to the invention,

Fig. 2 shows an example of a control circuit provided in the arrangement of FIG. 1

Fig. 3 timing diagrams of various signals in the arrangement of Fig. 1 and

Fig. 4 is a flowchart of a program which is provided for performing the method according to the invention.

Identical parts are given the same reference symbols in the figures Mistake.

In the arrangement according to FIG. 1, switching operations, for example of a sheet-fed offset printing press 1 with two printing units 2 , 3, are controlled by the method according to the invention. The printing press 1 further comprises a printing sheet feeder 4 and a printing sheet delivery 5 , devices 6 , 7 for switching the printing on and off in the two printing units 2 , 3 and devices 8 , 9 for switching the inking rollers on and off likewise in both printing units 2 and 3rd In addition, a dryer 10 and a powder device 11 are provided.

Since the devices 6 to 9 as well as the dryer 10 and the powdering device 11 are known per se and their details are not of interest in connection with the invention, they are only shown schematically in the drawing. In order to determine the respective position of the printing press, an incremental encoder 12 is provided in the area of the drive of the printing press 1 . Furthermore, an optical sensor in the form of a reflex light barrier 13 is arranged on a turning drum 15 , which together with a storage drum 14 belongs to a turning device. In the area of the second printing unit 3 there is an interrogation disk 17 which cooperates with a switch 18 which emits a switching signal at a predetermined angular position.

The incremental encoder 12 , the optical sensor 13 and the switch 18 are connected to inputs of a control device 20 , while the devices 6 to 9 , the dryer 10 and the powdering device 11 are connected to outputs of the control device 20 .

The control device 20 essentially consists of a control circuit 21 , a format measuring circuit 22 , a keyboard 23 and a changeover switch 24 . Both the control circuit 21 and the format measuring circuit 22 are supplied with the output pulses of the incremental encoder 12 . Either the optical sensor 13 or the switch 18 can be connected to the format measuring circuit via the changeover switch 24 , whereby one of two different possibilities for determining the printing sheet length or the format can be selected in each case. Details of this will be described later. The length of the printed sheet or the format can also be entered via the keyboard 23 . The determined or entered format is given by the format measuring circuit to the control circuit and is taken into account in the switching operations that take place after the turning drum 15 .

Fig. 2 shows the control circuit 21 ( Fig. 1). The incremental encoder consists, for example, of a graduated disk provided with optical markings, which is scanned by opto-electrical converters. One of the opto-electrical converters emits a pulse 0 during each revolution. Furthermore, tachometer signals A and B are generated, which are meandering and out of phase with one another by 90 °. In the case of a conventional incremental encoder, the tachometer signals A and B each comprise 1024 pulses per revolution.

The tachometer signals A and B are evaluated to determine the direction of rotation and the position of the printing press. To detect the direction of rotation, the tachometer signals A and B are fed to a circuit 31 . The circuit 31 has two outputs 32 , 33 , a signal to indicate the direction of rotation being output at the output 32 and a pulse when the direction of rotation is changed at the output 33 . While the signal characterizing the direction of rotation is fed to a data input of a computer 30 , the pulse at output 33 generates a program interruption (interrupt, IR).

To detect the position, the tachometer signals A and B and the pulse 0 are fed to a counter circuit 34 . It is also provided that pulse 0 triggers a program interruption and resets the counter circuit so that the counter reading indicates the position or the angle of rotation with respect to an initial position. In the arrangement according to FIG. 1, this value is fed as an actual position to a comparator 35 and compared there with a target position which was previously written into a register 38 by the computer 30 via a bus system 38 . If the printing press has reached the desired position, both values are the same and the comparator 35 triggers a program interruption, whereupon the computer initiates the switching operations provided for the desired position. Immediately afterwards, a new target position can be entered via register 36 . Until the press reaches this new target position, it is not necessary to continuously record the position of the press in the computer.

Computer 30 is also connected via bus system 38 to a memory 39 , in which the data of the respective printing press are permanently stored. These data are essentially the positions, that is, the angular positions of the incremental encoder, at which the switching processes, which are also stored, are to be triggered. Depending on the path of the printing sheet through the printing press, these angular positions not only have values from 0 ° to 360 °, but also larger values.

Furthermore, the computer 30 can be supplied with data via an interface 47 from the format measuring circuit 22 and via a further interface 48 from the keyboard 23 . Finally, an output unit 40 is provided, the outputs of which are connected to devices 6 to 11 ( FIG. 1) via power stages 41 to 46 . The computer can use this to trigger the individual switching processes.

When the printing process is started, a program is started in the computer 30 , which compares the angular positions previously loaded from the memory 39 into a working memory of the computer with the angular position of the incremental encoder 12 . For this purpose, the smallest of the stored angular positions is first written into the register 36 . If the counter 34 reaches the same value, the comparator 35 triggers a program interruption. The computer then queries which switching operation belongs to this angular position and outputs corresponding data to the output unit 40 . The computer 30 then loads the next angular position into the register 36 , etc. It may well happen that several switching operations are triggered in one angular position. In the case of perfecting, the angular positions are converted in accordance with the data taken over from the format measuring circuit 22 or from the keyboard 23 . This only concerns the data after the turning drum 15 ( FIG. 1). In the case of printing presses with more than two printing units, the format is taken into account correspondingly frequently with multiple turns of the printing sheet.

The function of the format measuring circuit is explained below with reference to the time diagrams according to FIG. 3. Lines a ) to c ) show the tachometer signals 0, A and B emitted by the incremental encoder 12 . The leading edge of the speedometer signal 0 indicates the zero position (0 °) of the printing press. Because of the large number of tachometer signals A and B that are accounted for by one revolution, these are shown on an enlarged time scale and only in the region of the zero position. Line d ) shows a signal generated by switch 18 ( Fig. 1). The interrogation disk 17 is mounted in such a way that the trailing edge of the signal S 0 in straight printing coincides exactly with the leading edge of the signal 0.

If the printing press is switched to face and back printing, the turning drum 15 is rotated relative to the storage drum 14 by an angle α which is dependent on the length of the printing sheet. The entire subsequent printing unit is thus also adjusted relative to the incremental encoder 12 . The signal of the switch 18 is shifted accordingly. Line e ) shows a signal S 1 with a small printed sheet length, while line f ) shows a signal S 2 with a larger printed sheet length. The corresponding adjustment angle α 1 or α 2 is measured by counting the tachometer signals A or B and communicated to the computer 30 via the interface 47 ( FIG. 2).

However, the adjustment angle α corresponding to the length of the printed sheet can also be determined with the aid of an optical sensor 13 . To explain this method, lines g ), h ) and i ) of FIG. 3 show output signals of the optical sensor 13 for different angular positions. Since the optical sensor 13 generates not only a signal when paper is passed by the optical sensor, but also when metal parts of the cylinder are passed by the optical sensor, the signal shown in lines b ) to i ) consists of several individual pulses that form a signal pattern that repeats with every revolution. This signal pattern can be stored in a manner known per se in such a way that a comparison of the same, but phase-shifted signal pattern with a stored one is possible. The rotation of the printing units is concluded from the shifting of the two signal patterns with respect to one another.

With the help of a development of the invention, the rotation between the storage drum 14 for the respective printing sheet length can be carried out in a simple manner as follows. After releasing a coupling between the to be rotated drums 14, 15 and the setting of the printing unit 3 with a schematically indicated in Fig. 1 latch 16, the printing unit 2, and thus the storage drum 14 is rotated while using the drive until the respective for the Format required twist is reached. This is also determined with the aid of the control circuit 21 ( FIG. 1) by comparison with a value entered via the keyboard 23 . The drive is then automatically switched off, the drums are coupled together again and the printing unit 3 is released.

Furthermore, the method according to the invention can also do this are used, predetermined angular positions of the To start printing units. This is particularly important for or unclamping the printing plates required so that the Fastening screws for the pressure plates are accessible.

FIG. 4a) illustrates a program which is executed for initialization after power on. After starting at 51 , a table with switching degree numbers (stored angular positions) corresponding to the type of printing press to be controlled is loaded at 52 . This is followed by a branch 53 , in which a query is made as to whether the printing press is on reverse printing. If this is the case, all switching degree numbers, which stand for switching processes behind the turn, are corrected in the program part 54 in accordance with the length of the printed sheet. After branching 53 or after program part 54 , the switching degree numbers at 55 are sorted in increasing order. In program part 56 , register 36 ( FIG. 2) is loaded with the first number of switching degrees. The interrupt input to which the comparator 35 is connected is then released at 57 , whereupon the initialization program 58 is ended.

FIG. 4b) shows a program which runs for each interrupt caused by the comparator 35 ( FIG. 2). After the interrupt 61 , the switching program provided for the respective angular position or number of switching degrees is called at 62 . A program then branches at 63 depending on whether register 36 is loaded with the highest number of switching degrees. If this is not the case, the register with the next higher number of switching degrees is loaded at 64 . If the highest number of switching degrees is already in register 36 , register 36 is loaded at 65 with the lowest number of switching degrees. Then the interrupt input for the comparator 35 is released again at 66 , whereupon the interrupt program is ended at 67 and the computer can continue to process the interrupted program.

Claims (13)

1. A method for controlling switching operations on a printing press, in which an angle encoder is provided on a shaft, characterized in that the respective angular position is compared with stored angular positions and, if there is a match, a switching operation assigned to the angular position is triggered. 2. The method according to claim 1, characterized in that on a printing press that is between straight printing and and reverse pressure is convertible, the saved Angular positions, which switching operations after a turn of the respective printed sheet, taking into account the sheet length with the respective angular position be compared. 3. The method according to claim 2, characterized in that the printed sheet length with the help of an opto-electrical Establishment in the area of the printing press after the Turning device is measured. 4. The method according to claim 2, characterized in that with perfecting and printing the length of the printed sheet Comparison of the respective determined by the angle encoder Angle and the output signal of a rotation angle dependent  Switching device (interrogation disk) is determined which is arranged after the turning device. 5. The method according to claim 2, characterized in that the sheet length is entered manually. 6. The method according to claim 1, characterized in that on one or more printing units of a printing press Switching the pressure on and off and switching it on and off the inking rollers are triggered. 7. The method according to claim 6, characterized in that a powder device can also be switched on or off. 8. The method according to claim 6, characterized in that also a dryer on or off or on standby is switchable. 9. Arrangement for performing the invention Process, characterized in that the angle encoder from an incremental encoder is formed with a counter connected is. 10. The arrangement according to claim 9, characterized in that the incremental encoder on a shaft of the drive train Printing machine is arranged. 11. The method according to claim 1, characterized in that to convert the printing press from fine printing to beautiful and back pressure a clutch is released and that part of the respective printing unit, which is no longer compatible with the Drive of the printing press is connected, that is blocked the drive of the printing machine is put into operation, while the angle of rotation covered with a for the length of the printed sheet to be used Angle of rotation is compared and that if the  Drive stopped and then the clutch closed and the blocking is released. 12. The method according to claim 1, characterized in that stopping of the printing machine by a switching operation is effected and that at least one of the stored Angular positions for maintenance and / or Setup work suitable position of the printing press corresponds. 13. The method according to claim 12, characterized in that by operating a certain control element Drive of the printing press is started, a comparison of the respective angular position with a control element assigned stored angular position and if the drive matches, it is switched off.